RU2695726C1 - Stabilizing two-story cutting-shearing drilling bit - Google Patents

Abstract

FIELD: soil or rock drilling; mining.

SUBSTANCE: invention relates to drilling of boreholes with cutting and shearing bits and can be used in mining and oil and gas industries when drilling wells for various purposes. Stabilizing two-tier bit of cutting-shearing type includes lower drilling tier including stabilizers of lower drilling tier and cutting blades of lower drilling tier, upper drilling tier including shank, internal bore of bit, stabilizers of upper drilling tier and cutting blades of upper drilling tier. Cutting blades of the lower drilling stage and cutting blades of the upper drilling string are made symmetrically with radial cutters of the lower drilling stage and cutting elements of the upper drilling string. Stabilizers of lower drilling stage and stabilizers of upper drilling tier are spiral gaging surfaces. Stabilizers of upper drilling layer are equipped with high-resistant pins having calibrating action. Flushing holes are located in the lower drilling bit. Number of cutting elements on blades of the lower drilling stage is equal to number of cutting elements on blades of the upper drilling tier, in which a coaxial permanent magnet is located coaxially to the axis of the bit.

EFFECT: technical result is reduction of torque at drilling rig and prevention of possibility of torsional vibrations during drilling, causing breakage of cutting elements, improved parameters of flushing liquid, saving chemical reagents.

1 cl, 1 dwg

Description

The present invention is in the field of well drilling with cutting-chipping type bits and can find application in the mining and oil and gas industries when drilling wells for various purposes. The two-tier chisel of the cutting-shearing type is designed for drilling with a downhole motor in rocks above the average strength and strong.

The multi-tier chisel of the cutting type is known from the existing level of technology (see patent for invention of the Russian Federation No. 2310732, IPC ЕВВ 10/00 The multi-tiered chisel of the cutting type / Tretyak A.Ya., Chikhotkin V.F., Litkevich Yu.F., Aseeva A. E. Application 2006100565/03 of January 16, 2006; published on November 20, 2007; Bull. No. 32). The bit is designed for drilling wells for various purposes in rocks of VI-VIII category for drillability.

The bit includes a body, consisting of cone-shaped tiers, the number of at least two, made in the form of independent bodies of revolution located coaxially. The cutting feathers of the tiers having sloping front faces are equipped with highly resistant cutting elements that form broken lines in the projection onto the longitudinal plane.

Disadvantage: short cone-shaped tiers when drilling alternating (layered) rocks are not stable at the bottom. This causes vibration of the cutting elements and can lead to breakage.

Also known is the stabilizing bit SpeedDrillDPI (see US Patent 5803196, IPC E21B 10/42. Stabilizing drill bit / Coy M. Diamond Products International (Houston, TX). Appl.No .: 08/655988. Filed: May 31, 1996. Fielder September 8, 1998), adopted by us as an analogue.

The drill bit includes a drill bit body forming a cutting surface located around a longitudinal axis; a plurality of cutting elements, motionlessly located and protruding from the front part and located at some distance from each other; one or more stabilizing elements located on the cutting surface.

Disadvantage: different cutting speeds by cutting elements, fixed parts of the bit fixed to each other, lead to uneven wear (predominant wear of the cutting elements of the drill part that are farthest from the axis). This limits the bit life due to loss of diameter.

Closest to the claimed technical solution is a stabilizing two-tier chisel of the cutting type (see patent for the invention of the Russian Federation No. 2445433, IPC ЕВВ 10/00 Stabilizing two-tier chisel of the cutting type / Tretyak A.Ya., Litkevich Yu.F., Tretyak A.A. , Burda M.L., Onofrienko S.A. Application 2010129126/03 of July 13, 2010; publ. March 20, 2012; Bull. No. 8) taken as a prototype.

A stabilizing two-tier cutting bit, including a shank, an inner channel, a lower drilling and an upper drilling with stabilizers parts, which consist of a series of symmetrically located cutting blades, which, in turn, include radially located cutting elements, the bit is divided into tiers, each of which is divided into tiers made in the form of independent bodies of revolution located coaxially, while the cutting speeds furthest from the longitudinal axis of the cutting elements of the drilling and drilling tiers are not pr exceed critical values, and stabilizers equipped with highly resistant pins have a calibrating effect.

The disadvantage of this bit is the inability to magnetize the drilling fluid, which leads to a deterioration in the outflow ability of the fluid. As well as the occurrence of large torsional vibrations during drilling of interbedded rocks, which lead to breakage of the cutting elements of the bit.

The objective of the invention is to increase the operating time per bit on intermittent rocks from category I to IX for drillability while maintaining the verticality of the wellbore and improving the quality of the drilling fluid due to its magnetization.

The technical result of the invention is to reduce the torque on the drill stand and prevent the possibility of torsional vibrations during drilling, causing breakage of the cutting elements, improving the parameters of the flushing fluid, saving chemical reagents.

This problem is solved due to the fact that the stabilizing two-tier chisel of the cutting-shearing type, including the lower drilling tier, including the stabilizers of the lower drilling tier and the cutting blades of the lower drilling tier, the upper drilling tier, including the shank, the inner channel of the bit, the stabilizers of the upper drilling tier blades of the upper drilling tier, cutting blades of the lower drilling and upper drilling tiers are made symmetrically with radially located cutting elements, the stabilizers of the upper drilling tier are equipped with highly resistant pins having a calibrating effect, the number of cutting elements on the blades of the lower drilling tier is equal to the number of cutting elements on the blades of the upper drilling tier, in which a permanent ring magnet is located coaxially with the axis of the bit. The cutting elements on the blades of the lower drilling and upper drilling tiers can be made in the form of comb-shaped PDC cutting elements at a negative angle from 10 ° to 35 °.

The invention is illustrated in FIG. 1, where it is shown: a stabilizing two-tier chisel of a cutting-chipping type, including a lower drill tier 1, including stabilizers 7 of the lower drill tier 1 and cutting blades 3 of the lower drill tier 1, upper drill tier 2, including a shank 10, an internal channel of the bit 13, stabilizers 8 of the upper drilling tier 2 and cutting blades 5 of the upper drilling tier 2, cutting blades 3 of the lower drilling tier 1 and cutting blades 5 of the upper drilling tier 2 are made symmetrically with a radially laid cutting elements 4 of the lower drilling tier 1 and cutting elements 6 of the upper drilling tier 2, stabilizers 7 of the lower drilling tier 1 and stabilizers 8 of the upper drilling tier 2 are spiral gage surfaces, stabilizers 8 of the upper drilling tier 2 are equipped with high-resistance pins 9 with gauge , washing holes 11 are located in the lower drilling tier 1 of the bit, the number of cutting elements 4 on the blades 7 of the lower drilling tier 1 is equal to the number of cutting elements 6 on the blades 5 of the upper drilling tier 2, in which a permanent ring magnet 12 is located coaxially with the axis of the bit inside it. A special case of cutting elements 4 and 6 can be diamond carbide inserts (ATP), Polycrystalline Diamond Compact (PDC) comb forms or the like set at a negative angle from 10 to 35.

For the operation of the proposed bit using the well-known downhole motor and planetary gear transmitting counter-rotation to the lower drilling tier with an angular velocity of ω ₁ and the upper drilling tier with an angular velocity of ω ₂ .

The bit works as follows: When rotating the lower drilling tier 1 with an angular velocity of ω ₁ and the upper drilling tier 2 with an angular speed of ω ₂ , with axial movement of the bit, the cutting blades 3 of the lower drilling tier _{1 are} drilled into the face, expanding as the well moves up to diameter d determined by the position of the extreme cutting elements 4 of the lower drilling tier 1, located in the upper parts of the cutting blades 3 of the lower drilling tier 1, and the cutting blades 5 of the upper drilling tier 2 with the cutting element 6 of the upper drilling tier 2, expand the well as it moves up to a diameter D, determined by the position of the extreme cutting elements 6 of the upper drilling tier 2, stabilizers 7 of the lower drilling tier 1 and stabilizers 8 of the upper drilling tier 2 increase the contact area with the walls of the well. The torques on the lower drilling and upper drilling tiers are directed in the opposite direction and are equal in absolute value. This will prevent the occurrence of torsional vibrations, which are one of the main causes of PDC breakdowns.

Drilling fluid moving along the internal channel of the bit 13 in the upper drilling tier 2, which serves to move the drilling fluid, leading from the shank 10 in the upper drilling tier 2 to the flushing holes 11 in the lower drilling tier 1 of the bit, flowing along the internal channel of the bit 13 through the one installed in the upper in the drilling tier 2, the annular permanent magnet 12 is magnetized by it, which leads to an improvement in the quality of the drilling fluid, i.e. its main parameters (viscosity, density, water loss, static shear stress a).

To prevent the occurrence of torsional vibrations, it is necessary to free the drilling rig from transmitting torque from the bit. This is possible if the torque on the lower drilling tier and on the upper drilling tier is equal in magnitude but oppositely directed, for this the number of cutting elements on the lower drilling tier should be equal to the number of cutting elements on the upper drilling tier. By approximating in magnitude the values of the torques on the drilling and drilling tiers, it is possible to prevent the occurrence of torsional vibrations on the drill stand and to reduce the number of PDC breakages from impacts arising from torsional vibrations.

An external magnetic field changes the distribution of electron clouds of ions and polarizes the electron clouds of water molecules. In this case, the energies of the interaction of ions with the nearest water molecules and the polarization by ions of nearby volumes of water change, which leads to a change in the structure of the solution. The macromolecules of the polymers used are high molecular weight compounds and have a linear structure. When the solution is treated with a magnetic field, the length of the macromolecule increases. As a result, a greater amount of free water is adsorbed, due to which there is an increase in viscosity and a decrease in water loss, density and static shear stress increase, that is, the quality of the drilling fluid improves.

The innovative PDC cutters of the new generation of comb-shaped shape significantly increase the impact strength of the bit and the mechanical penetration rate. The comb-shaped shape of the PDC cutter increases the cutting force efficiency and heat transfer with a higher resistance to frontal loads on the cutter, which is achieved by increasing the thickness of the diamond layer on the crest by 70% compared to the standard PDC cutter. Reducing the force on the cutter to achieve the same penetration speed leads to a more stable and lower torque, and improved control of the orientation of the bit during directional drilling. This advantage makes it possible to increase the intensity of the zenith angle set at a higher mechanical penetration rate, thereby increasing the interval of the productive zone and minimizing unproductive time, maintaining a more accurate trajectory of the well.

Tests of comb-shaped PDC reinforced bits have allowed an increase in the mechanical penetration speed compared to standard PDC reinforced bits with the same bit design, which reduces drilling time and reduces well construction costs.

It should be noted that the efficiency of the proposed stabilizing two-tier chisels of the cutting-shearing type is higher than the prototype of the stabilizing two-tier chisels of the cutting type (see RF patent No. 2445433, IPC Е21В 10/00 Stabilizing two-tier chisel of the cutting type / Tretyak A. Ya., Litkevich Yu.F., Tretyak A.A., Burda M.L., Onofrienko S.A. Application 2010129126/03 of 07/13/2010; publ. March 20, 2012; Bull. No. 8). The efficiency of the bit according to the proposed application for the invention is calculated as the arithmetic average of the main technological parameters - drilling speed, life hours per bit until complete wear, bit cost, PDC wear, bit wear in diameter, PDC loss.

Claims (2)

1. A stabilizing two-tier chisel of a cutting-shearing type, including a lower drilling tier, including stabilizers of the lower drilling tier and cutting blades of the lower drilling tier, an upper drilling tier, including a shank, an internal channel of the bit, stabilizers of the upper drilling tier and cutting blades, and cutting the blades of the lower drilling tier and the cutting blades of the upper drilling tier are made symmetrically with radially located cutting elements neither of the drill string and the cutting elements of the upper drill string, stabilizers of the lower drill string and stabilizers of the upper drill string are spiral calibrating surfaces, stabilizers of the upper drill string are equipped with high-resistance pins having a calibrating effect, the flushing holes are located in the lower drill pipe, which the number of cutting elements on the blades of the lower drilling tier is equal to the number of cutting elements n the blades of the upper tier are drilled, wherein the bit axis coaxially inside his ring is located a permanent magnet. 2. The stabilizing two-tier cutting bit according to claim 1, characterized in that the cutting elements mounted on the lower drilling and upper drilling tiers are made in the form of comb-shaped PDC cutting elements at a negative angle from 10 to 35 °.

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